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|  Radiological Assessor Training
DOE-HDBK-1141-2001
Instructor's Guide
Show OT 8.1 and OT 8.2.
I.
Introduction
State objectives.
The guidance in DOE-STD-1128-98, Guide of Good
Practices for Occupational Radiological Protection in
Plutonium Facilities, should be reviewed in detail
Review DOE-STD-1128-98,
Guide of Good Practices for
prior to conducting an assessment of plutonium
Occupational Radiological
facilities. The following is a brief overview of the
Protection in Plutonium Facilities.
radiological aspects of plutonium.
II.
Background
Plutonium was first synthesized in the winter of 1940-
41 by a team of scientists at the University of
California. Its potential use in weapons was quickly
identified, and much of the effort of the Manhattan
Project was in the production of sizable quantities of
plutonium. Other uses for plutonium include use as:
Reactor fuel
Heat sources in thermoelectric generators to
power satellites
Components in portable neutron sources
Plutonium is a silvery-white metal that readily
oxidizes to a dull gray color. It can be found in a
variety of physical and chemical forms. Several of
the chemical forms (including the pure metal) are
Pyrophoric = able to ignite
spontaneously
pyrophoric, so care must be exercised in handling the
material. Because of the pyrophoric nature of
plutonium and its alloys, the preferred form for
storing, shipping, and handling is as plutonium oxide.
III. Radiological properties of plutonium
A. Isotopes
There are 15 isotopes of plutonium, all
radioactive, beginning with Plutonium-232 and
Obj. 1
ending with Plutonium-246. The radioisotopes of
Identify the radiological
Properties of plutonium.
primary interest are Plutonium-238, Plutonium-
239, and Plutonium-240, all of which are primarily
Show OT 8.3.
alpha-emitters.
Module 8 3
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